ADCY9 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	ADCY9
Entrez Gene ID	115
Full Name	adenylate cyclase 9
Synonyms	AC9,ACIX
General protein information	Preferred Names adenylate cyclase 9 Names adenylate cyclase type 9 ATP pyrophosphate-lyase 9 adenylate cyclase type IX adenylyl cyclase 9 type IX ATP pyrophosphate-lyase
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 16 Map Location: 16p13.3
Summary	Adenylate cyclase is a membrane bound enzyme that catalyses the formation of cyclic AMP from ATP. It is regulated by a family of G protein-coupled receptors, protein kinases, and calcium. The type 9 adenylyl cyclase is a widely distributed adenylyl cyclase, and it is stimulated by beta-adrenergic receptor activation but is insensitive to forskolin, calcium, and somatostatin. [provided by RefSeq, Jul 2008].
Disorder MIM:	603302

mRNA and Protein(s)

mRNA	Protein	Name
XM_005255079.3	XP_005255136.1	adenylate cyclase type 9 isoform X1
NM_001116.3	NP_001107.2	adenylate cyclase type 9
NM_001116.4	NP_001107.2	adenylate cyclase type 9
XM_011522353.2	XP_011520655.1	adenylate cyclase type 9 isoform X2

Pathways from BioSystems

Homologies

Bos taurus (cattle)	ADCY9	NP_001192846.1
Mus musculus (house mouse)	Adcy9	NP_033754.2
Danio rerio (zebrafish)	LOC100333702	XP_003201145.1
Xenopus tropicalis (tropical clawed frog)	adcy9	XP_002932476.2
Pan troglodytes (chimpanzee)	ADCY9	XP_510775.3
Caenorhabditis elegans (roundworm)	acy-1	NP_497970.1
Rattus norvegicus (Norway rat)	Adcy9	NP_001100450.1
Homo sapiens (human)	ADCY9	NP_001107.2
Canis lupus familiaris (dog)	ADCY9	XP_547151.2
Drosophila melanogaster (fruit fly)	Ac13E	NP_001014745.1
Gallus gallus (chicken)	ADCY9	NP_989961.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP000090	XP_311062.5

Gene Ontology
Bibliography

Related articles in PubMed

Elevated Adenylyl Cyclase 9 Expression Is a Potential Prognostic Biomarker for Patients with Colon Cancer.
Yi H, Wang K, Jin JF, Jin H, Yang L, Zou Y, Du B, Liu X
Medical science monitor : international medical journal of experimental and clinical research2419-25(2018 Jan)

Adenylyl cyclase type 9 gene polymorphisms are associated with asthma and allergy in Brazilian children.
Teixeira HM, Alcantara-Neves NM, Barreto M, Figueiredo CA, Costa RS
Molecular immunology82137-145(2017 Feb)

Higher TNF? responses in young males compared to females are associated with attenuation of monocyte adenylyl cyclase expression.
Ris?e PK, Rutkovskiy A, ?gren J, Kolseth IB, Kjeldsen SF, Valen G, Vaage J, Dahle MK
Human immunology76(6)427-30(2015 Jun)

Pharmacogenomic determinants of the cardiovascular effects of dalcetrapib.
Tardif JC, Rh?aume E, Lemieux Perreault LP, Gr?goire JC, Feroz Zada Y, Asselin G, Provost S, Barhdadi A, Rhainds D, L'Allier PL, Ibrahim R, Upmanyu R, Niesor EJ, Benghozi R, Suchankova G, Laghrissi-Thode F, Guertin MC, Olsson AG, Mongrain I, Schwartz GG, Dub? MP
Circulation. Cardiovascular genetics8(2)372-82(2015 Apr)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

polymorphisms in the ADCY9 gene are significantly associated with asthma and/or allergy markers
Title: Adenylyl cyclase type 9 gene polymorphisms are associated with asthma and allergy in Brazilian children.

The stronger TNF-alpha responses in young males compared to females may be partly associated with male-specific down-regulation of ADCY7 and ADCY9.
Title: Higher TNF? responses in young males compared to females are associated with attenuation of monocyte adenylyl cyclase expression.

The effects of dalcetrapib on atherosclerotic outcomes are determined by correlated polymorphisms in the ADCY9 gene.
Title: Pharmacogenomic determinants of the cardiovascular effects of dalcetrapib.

The importance of miR-181a-mediated AC9 downregulation in acute promyelocytic leukemia, is reported.
Title: MicroRNA-181a-mediated downregulation of AC9 protein decreases intracellular cAMP level and inhibits ATRA-induced APL cell differentiation.

Data indicate that adenylyl cyclase 9 (AC9) transcript is a direct target of miR-181b.
Title: miR-181b promotes cell proliferation and reduces apoptosis by repressing the expression of adenylyl cyclase 9 (AC9) in cervical cancer cells.

The following ADCY9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADCY9 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OHu21489	NM_001116.4 Latest version!	Homo sapiens adenylate cyclase 9 (ADCY9), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$274.50-$384.30 $549.00
OHu56169	XM_011522353.2 Latest version!	Homo sapiens adenylate cyclase 9 (ADCY9), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu48746	XM_005255079.3 Latest version!	Homo sapiens adenylate cyclase 9 (ADCY9), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
View Old Accession Versions >>
OHu21489	NM_001116.3	Homo sapiens adenylate cyclase 9 (ADCY9), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$274.50-$384.30 $549.00
Hide Old Accession Versions >>

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** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

ADCY9 ( NM_001116.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001107.2 Homo sapiens adenylate cyclase 9 (ADCY9), mRNA.

Price & Availability↑

CloneID	OHu21489
Clone ID Related Accession (Same CDS sequence)	NM_001116.3 , NM_001116.4
Accession Version	NM_001116.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4062bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-12-27
Organism	Homo sapiens(human)
Product	adenylate cyclase type 9
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005736.1, AJ133123.1 and BQ614080.1. This sequence is a reference standard in the RefSeqGene project. On Oct 28, 2010 this sequence version replaced NM_001116.2. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AJ133123.1, BC151229.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGCTTCCC CACCCCACCA GCAGCTGCTG CATCACCACA GCACCGAGGT GAGCTGCGAC 
TCCAGCGGGG ACAGCAACAG CGTGCGCGTC AAGATCAACC CCAAGCAGCT GTCCTCCAAC 
AGCCACCCCA AGCACTGCAA ATACAGCATC TCCTCTAGCT GCAGCAGCTC TGGGGACTCC 
GGGGGCGTCC CCCGGCGAGT GGGCGGCGGA GGCCGGCTGC GCAGGCAGAA GAAGCTGCCC 
CAGCTGTTCG AGAGGGCCTC CAGCCGCTGG TGGGACCCCA AGTTCGACTC GGTGAACCTG 
GAGGAGGCCT GCCTGGAGCG CTGCTTCCCG CAGACCCAGC GCCGGTTCCG GTATGCGCTC 
TTCTACATCG GCTTCGCCTG CCTTCTGTGG AGCATCTATT TTGCGGTCCA CATGAGATCC 
AGACTGATCG TCATGGTCGC CCCCGCGCTG TGCTTCCTCC TGGTGTGTGT GGGCTTCTTT 
CTGTTTACCT TCACCAAGCT GTACGCCCGG CATTACGCGT GGACCTCGCT GGCTCTCACC 
CTGCTGGTGT TCGCCCTGAC CCTGGCTGCG CAGTTCCAGG TCTTGACGCC TGTCTCAGGA 
CGCGGCGACA GCTCCAACCT TACGGCCACA GCCCGGCCCA CAGATACTTG CTTATCTCAA 
GTGGGGAGCT TCTCCATGTG CATCGAAGTG CTCTTTTTGC TCTATACCGT CATGCACTTA 
CCTTTGTACC TGAGTTTGTG TCTGGGGGTG GCCTACTCTG TCCTTTTCGA GACCTTTGGC 
TACCATTTCC GGGATGAAGC CTGCTTCCCC TCGCCCGGAG CCGGGGCCCT GCACTGGGAG 
CTGCTGAGCA GGGGGCTGCT CCACGGCTGC ATCCACGCCA TCGGGGTCCA CCTGTTCGTC 
ATGTCCCAGG TGAGGTCCAG GAGCACCTTC CTCAAGGTGG GGCAATCCAT TATGCACGGG 
AAGGACCTGG AAGTGGAAAA AGCCCTCAAA GAGAGGATGA TTCATTCCGT GATGCCAAGA 
ATCATAGCCG ATGACTTAAT GAAGCAGGGA GATGAGGAGA GTGAGAATTC TGTCAAGAGG 
CATGCCACCT CGAGCCCCAA GAACAGGAAG AAAAAGTCTT CCATCCAAAA AGCTCCTATA 
GCCTTCCGCC CTTTTAAGAT GCAGCAGATC GAAGAAGTCA GTATTTTATT TGCAGATATC 
GTGGGCTTCA CCAAGATGAG TGCCAACAAG TCTGCCCACG CCCTGGTGGG TCTCCTGAAC 
GATCTGTTCG GTCGCTTCGA CCGCCTGTGT GAGGAGACCA AGTGTGAGAA AATCAGCACC 
CTGGGAGACT GTTACTACTG CGTGGCGGGC TGTCCCGAGC CCCGGGCCGA CCATGCCTAC 
TGCTGCATCG AGATGGGCCT GGGCATGATC AAGGCCATCG AGCAGTTCTG CCAGGAGAAG 
AAGGAGATGG TGAACATGAG AGTCGGGGTG CACACGGGCA CCGTCCTTTG CGGCATCCTG 
GGCATGAGGA GGTTTAAATT TGACGTGTGG TCCAACGATG TGAACCTGGC CAATCTCATG 
GAGCAGCTGG GAGTGGCCGG CAAAGTTCAC ATTTCTGAGG CCACCGCAAA ATACTTAGAT 
GACCGGTACG AAATGGAAGA TGGGAAAGTT ATTGAACGGC TGGGCCAGAG CGTGGTTGCT 
GACCAGTTGA AAGGTTTGAA GACATACCTG ATATCGGGTC AGAGAGCCAA GGAGTCTCGC 
TGCAGCTGTG CAGAGGCCTT GCTTTCTGGC TTTGAGGTCA TTGACGGCTC ACAGGTGTCC 
TCAGGCCCTA GGGGACAGGG GACAGCGTCA TCAGGGAATG TCAGTGACTT GGCGCAGACT 
GTCAAAACCT TTGATAACCT TAAGACCTGC CCTTCGTGCG GAATCACATT TGCTCCCAAA 
TCTGAAGCCG GCGCCGAGGG AGGAGCACCT CAAAACGGCT GCCAAGACGA GCATAAAAAC 
AGCACCAAGG CTTCTGGAGG ACCTAATCCC AAAACTCAGA ACGGGCTCCT CAGCCCTCCC 
CAAGAGGAGA AGCTCACCAA CAGTCAGACT TCTCTGTGTG AGATCTTGCA GGAGAAGGGA 
AGGTGGGCAG GGGTGAGCCT GGACCAGTCG GCTCTCCTTC CGCTGAGGTT CAAGAACATC 
CGGGAGAAAA CGGACGCCCA CTTTGTGGAC GTTATCAAAG AAGACAGCCT GATGAAAGAT 
TACTTTTTTA AGCCGCCCAT TAATCAGTTC AGCCTGAACT TCCTGGATCA GGAGCTGGAG 
CGATCCTACA GGACCAGCTA TCAGGAAGAG GTCATAAAGA ACTCCCCCGT GAAGACGTTT 
GCTAGTCCCA CCTTCAGCTC CCTCCTGGAT GTGTTTCTGT CGACCACAGT GTTTCTGACG 
CTGTCCACCA CCTGCTTCCT GAAGTACGAG GCGGCCACCG TGCCTCCCCC GCCCGCCGCC 
CTGGCGGTCT TCAGTGCAGC CCTGCTGCTG GAGGTGCTGT CCCTCGCGGT GTCCATCAGG 
ATGGTGTTCT TCCTGGAGGA CGTCATGGCC TGCACCAAGC GCCTGCTGGA GTGGATCGCC 
GGCTGGCTAC CACGTCACTG CATCGGGGCC ATCCTGGTGT CGCTTCCCGC ACTGGCCGTC 
TACTCCCATG TCACCTCCGA ATATGAGACC AACATACACT TCCCAGTGTT CACAGGCTCG 
GCCGCGCTGA TTGCCGTCGT GCACTACTGT AACTTCTGCC AGCTCAGCTC CTGGATGAGG 
TCCTCCCTCG CCACCGTCGT GGGGGCCGGG CCGCTGCTCC TGCTCTACGT CTCCCTGTGC 
CCAGACAGTT CTGTATTAAC TTCGCCCCTT GACGCAGTAC AGAATTTCAG TTCCGAGAGG 
AACCCGTGCA ATAGTTCGGT GCCGCGTGAC CTCCGGCGGC CCGCCAGCCT CATCGGCCAG 
GAGGTGGTTC TCGTCTTCTT TCTCCTGCTC TTGTTGGTCT GGTTCCTGAA TCGCGAATTT 
GAAGTCAGCT ACCGCCTCCA CTACCACGGA GACGTGGAAG CGGATCTTCA CCGCACCAAG 
ATCCAGAGCA TGCGGGACCA GGCAGACTGG CTGCTGAGGA ACATCATCCC CTACCACGTG 
GCTGAGCAGC TGAAGGTGTC CCAGACCTAC TCCAAGAACC ATGACAGCGG AGGGGTGATC 
TTCGCCAGCA TCGTCAACTT CAGCGAGTTC TACGAGGAGA ACTACGAGGG CGGCAAGGAG 
TGCTACCGGG TCCTCAACGA GCTCATCGGG GACTTTGACG AGCTCCTAAG CAAGCCGGAC 
TACAGCAGCA TCGAGAAGAT CAAGACCATC GGAGCCACGT ACATGGCGGC GTCAGGGCTG 
AACACCGCGC AGGCCCAGGA CGGCAGCCAC CCGCAGGAGC ACCTGCAGAT CCTGTTCGAG 
TTCGCCAAGG AGATGATGCG CGTGGTGGAC GACTTCAACA ACAACATGCT GTGGTTCAAC 
TTCAAGCTCC GCGTCGGCTT CAACCATGGG CCCCTCACGG CCGGGGTCAT CGGCACCACC 
AAGCTGCTGT ACGACATCTG GGGAGACACC GTCAACATCG CCAGCAGGAT GGACACCACC 
GGCGTGGAGT GCCGCATCCA GGTGAGCGAA GAGAGCTACC GCGTCTTGAG CAAGATGGGC 
TATGACTTCG ACTACAGAGG GACCGTGAAT GTCAAGGGGA AAGGCCAGAT GAAGACCTAC 
CTGTACCCAA AGTGCACGGA TCACAGGGTC ATCCCACAGC ACCAGCTGTC CATCTCCCCA 
GACATCCGCG TCCAGGTGGA TGGCAGCATC GGACGGTCTC CCACAGACGA GATTGCCAAC 
CTGGTGCCTT CTGTCCAGTA TGTGGACAAG ACATCTCTGG GTTCTGACAG CAGCACGCAG 
GCCAAGGATG CCCACCTGTC CCCCAAGAGA CCGTGGAAGG AGCCCGTCAA AGCCGAAGAA 
AGGGGTCGAT TTGGCAAAGC CATAGAGAAA GACGACTGTG ACGAAACAGG AATAGAAGAA 
GCCAACGAAC TCACCAAGCT CAACGTTTCA AAGAGTGTGT GA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001107.2
CDS	540..4601
Translation	MASPPHQQLLHHHSTEVSCDSSGDSNSVRVKINPKQLSSNSHPKHCKYSISSSCSSSGDSGGVPRRVGGGGRLRRQKKLPQLFERASSRWWDPKFDSVNLEEACLERCFPQTQRRFRYALFYIGFACLLWSIYFAVHMRSRLIVMVAPALCFLLVCVGFFLFTFTKLYARHYAWTSLALTLLVFALTLAAQFQVLTPVSGRGDSSNLTATARPTDTCLSQVGSFSMCIEVLFLLYTVMHLPLYLSLCLGVAYSVLFETFGYHFRDEACFPSPGAGALHWELLSRGLLHGCIHAIGVHLFVMSQVRSRSTFLKVGQSIMHGKDLEVEKALKERMIHSVMPRIIADDLMKQGDEESENSVKRHATSSPKNRKKKSSIQKAPIAFRPFKMQQIEEVSILFADIVGFTKMSANKSAHALVGLLNDLFGRFDRLCEETKCEKISTLGDCYYCVAGCPEPRADHAYCCIEMGLGMIKAIEQFCQEKKEMVNMRVGVHTGTVLCGILGMRRFKFDVWSNDVNLANLMEQLGVAGKVHISEATAKYLDDRYEMEDGKVIERLGQSVVADQLKGLKTYLISGQRAKESRCSCAEALLSGFEVIDGSQVSSGPRGQGTASSGNVSDLAQTVKTFDNLKTCPSCGITFAPKSEAGAEGGAPQNGCQDEHKNSTKASGGPNPKTQNGLLSPPQEEKLTNSQTSLCEILQEKGRWAGVSLDQSALLPLRFKNIREKTDAHFVDVIKEDSLMKDYFFKPPINQFSLNFLDQELERSYRTSYQEEVIKNSPVKTFASPTFSSLLDVFLSTTVFLTLSTTCFLKYEAATVPPPPAALAVFSAALLLEVLSLAVSIRMVFFLEDVMACTKRLLEWIAGWLPRHCIGAILVSLPALAVYSHVTSEYETNIHFPVFTGSAALIAVVHYCNFCQLSSWMRSSLATVVGAGPLLLLYVSLCPDSSVLTSPLDAVQNFSSERNPCNSSVPRDLRRPASLIGQEVVLVFFLLLLLVWFLNREFEVSYRLHYHGDVEADLHRTKIQSMRDQADWLLRNIIPYHVAEQLKVSQTYSKNHDSGGVIFASIVNFSEFYEENYEGGKECYRVLNELIGDFDELLSKPDYSSIEKIKTIGATYMAASGLNTAQAQDGSHPQEHLQILFEFAKEMMRVVDDFNNNMLWFNFKLRVGFNHGPLTAGVIGTTKLLYDIWGDTVNIASRMDTTGVECRIQVSEESYRVLSKMGYDFDYRGTVNVKGKGQMKTYLYPKCTDHRVIPQHQLSISPDIRVQVDGSIGRSPTDEIANLVPSVQYVDKTSLGSDSSTQAKDAHLSPKRPWKEPVKAEERGRFGKAIEKDDCDETGIEEANELTKLNVSKSV

Target ORF information:

RefSeq Version	NM_001116.3
Organism	Homo sapiens(human)
Definition	Homo sapiens adenylate cyclase 9 (ADCY9), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001116.3

ORF Insert Sequence:

ATGGCTTCCC CACCCCACCA GCAGCTGCTG CATCACCACA GCACCGAGGT GAGCTGCGAC 
TCCAGCGGGG ACAGCAACAG CGTGCGCGTC AAGATCAACC CCAAGCAGCT GTCCTCCAAC 
AGCCACCCCA AGCACTGCAA ATACAGCATC TCCTCTAGCT GCAGCAGCTC TGGGGACTCC 
GGGGGCGTCC CCCGGCGAGT GGGCGGCGGA GGCCGGCTGC GCAGGCAGAA GAAGCTGCCC 
CAGCTGTTCG AGAGGGCCTC CAGCCGCTGG TGGGACCCCA AGTTCGACTC GGTGAACCTG 
GAGGAGGCCT GCCTGGAGCG CTGCTTCCCG CAGACCCAGC GCCGGTTCCG GTATGCGCTC 
TTCTACATCG GCTTCGCCTG CCTTCTGTGG AGCATCTATT TTGCGGTCCA CATGAGATCC 
AGACTGATCG TCATGGTCGC CCCCGCGCTG TGCTTCCTCC TGGTGTGTGT GGGCTTCTTT 
CTGTTTACCT TCACCAAGCT GTACGCCCGG CATTACGCGT GGACCTCGCT GGCTCTCACC 
CTGCTGGTGT TCGCCCTGAC CCTGGCTGCG CAGTTCCAGG TCTTGACGCC TGTCTCAGGA 
CGCGGCGACA GCTCCAACCT TACGGCCACA GCCCGGCCCA CAGATACTTG CTTATCTCAA 
GTGGGGAGCT TCTCCATGTG CATCGAAGTG CTCTTTTTGC TCTATACCGT CATGCACTTA 
CCTTTGTACC TGAGTTTGTG TCTGGGGGTG GCCTACTCTG TCCTTTTCGA GACCTTTGGC 
TACCATTTCC GGGATGAAGC CTGCTTCCCC TCGCCCGGAG CCGGGGCCCT GCACTGGGAG 
CTGCTGAGCA GGGGGCTGCT CCACGGCTGC ATCCACGCCA TCGGGGTCCA CCTGTTCGTC 
ATGTCCCAGG TGAGGTCCAG GAGCACCTTC CTCAAGGTGG GGCAATCCAT TATGCACGGG 
AAGGACCTGG AAGTGGAAAA AGCCCTCAAA GAGAGGATGA TTCATTCCGT GATGCCAAGA 
ATCATAGCCG ATGACTTAAT GAAGCAGGGA GATGAGGAGA GTGAGAATTC TGTCAAGAGG 
CATGCCACCT CGAGCCCCAA GAACAGGAAG AAAAAGTCTT CCATCCAAAA AGCTCCTATA 
GCCTTCCGCC CTTTTAAGAT GCAGCAGATC GAAGAAGTCA GTATTTTATT TGCAGATATC 
GTGGGCTTCA CCAAGATGAG TGCCAACAAG TCTGCCCACG CCCTGGTGGG TCTCCTGAAC 
GATCTGTTCG GTCGCTTCGA CCGCCTGTGT GAGGAGACCA AGTGTGAGAA AATCAGCACC 
CTGGGAGACT GTTACTACTG CGTGGCGGGC TGTCCCGAGC CCCGGGCCGA CCATGCCTAC 
TGCTGCATCG AGATGGGCCT GGGCATGATC AAGGCCATCG AGCAGTTCTG CCAGGAGAAG 
AAGGAGATGG TGAACATGAG AGTCGGGGTG CACACGGGCA CCGTCCTTTG CGGCATCCTG 
GGCATGAGGA GGTTTAAATT TGACGTGTGG TCCAACGATG TGAACCTGGC CAATCTCATG 
GAGCAGCTGG GAGTGGCCGG CAAAGTTCAC ATTTCTGAGG CCACCGCAAA ATACTTAGAT 
GACCGGTACG AAATGGAAGA TGGGAAAGTT ATTGAACGGC TGGGCCAGAG CGTGGTTGCT 
GACCAGTTGA AAGGTTTGAA GACATACCTG ATATCGGGTC AGAGAGCCAA GGAGTCTCGC 
TGCAGCTGTG CAGAGGCCTT GCTTTCTGGC TTTGAGGTCA TTGACGGCTC ACAGGTGTCC 
TCAGGCCCTA GGGGACAGGG GACAGCGTCA TCAGGGAATG TCAGTGACTT GGCGCAGACT 
GTCAAAACCT TTGATAACCT TAAGACCTGC CCTTCGTGCG GAATCACATT TGCTCCCAAA 
TCTGAAGCCG GCGCCGAGGG AGGAGCACCT CAAAACGGCT GCCAAGACGA GCATAAAAAC 
AGCACCAAGG CTTCTGGAGG ACCTAATCCC AAAACTCAGA ACGGGCTCCT CAGCCCTCCC 
CAAGAGGAGA AGCTCACCAA CAGTCAGACT TCTCTGTGTG AGATCTTGCA GGAGAAGGGA 
AGGTGGGCAG GGGTGAGCCT GGACCAGTCG GCTCTCCTTC CGCTGAGGTT CAAGAACATC 
CGGGAGAAAA CGGACGCCCA CTTTGTGGAC GTTATCAAAG AAGACAGCCT GATGAAAGAT 
TACTTTTTTA AGCCGCCCAT TAATCAGTTC AGCCTGAACT TCCTGGATCA GGAGCTGGAG 
CGATCCTACA GGACCAGCTA TCAGGAAGAG GTCATAAAGA ACTCCCCCGT GAAGACGTTT 
GCTAGTCCCA CCTTCAGCTC CCTCCTGGAT GTGTTTCTGT CGACCACAGT GTTTCTGACG 
CTGTCCACCA CCTGCTTCCT GAAGTACGAG GCGGCCACCG TGCCTCCCCC GCCCGCCGCC 
CTGGCGGTCT TCAGTGCAGC CCTGCTGCTG GAGGTGCTGT CCCTCGCGGT GTCCATCAGG 
ATGGTGTTCT TCCTGGAGGA CGTCATGGCC TGCACCAAGC GCCTGCTGGA GTGGATCGCC 
GGCTGGCTAC CACGTCACTG CATCGGGGCC ATCCTGGTGT CGCTTCCCGC ACTGGCCGTC 
TACTCCCATG TCACCTCCGA ATATGAGACC AACATACACT TCCCAGTGTT CACAGGCTCG 
GCCGCGCTGA TTGCCGTCGT GCACTACTGT AACTTCTGCC AGCTCAGCTC CTGGATGAGG 
TCCTCCCTCG CCACCGTCGT GGGGGCCGGG CCGCTGCTCC TGCTCTACGT CTCCCTGTGC 
CCAGACAGTT CTGTATTAAC TTCGCCCCTT GACGCAGTAC AGAATTTCAG TTCCGAGAGG 
AACCCGTGCA ATAGTTCGGT GCCGCGTGAC CTCCGGCGGC CCGCCAGCCT CATCGGCCAG 
GAGGTGGTTC TCGTCTTCTT TCTCCTGCTC TTGTTGGTCT GGTTCCTGAA TCGCGAATTT 
GAAGTCAGCT ACCGCCTCCA CTACCACGGA GACGTGGAAG CGGATCTTCA CCGCACCAAG 
ATCCAGAGCA TGCGGGACCA GGCAGACTGG CTGCTGAGGA ACATCATCCC CTACCACGTG 
GCTGAGCAGC TGAAGGTGTC CCAGACCTAC TCCAAGAACC ATGACAGCGG AGGGGTGATC 
TTCGCCAGCA TCGTCAACTT CAGCGAGTTC TACGAGGAGA ACTACGAGGG CGGCAAGGAG 
TGCTACCGGG TCCTCAACGA GCTCATCGGG GACTTTGACG AGCTCCTAAG CAAGCCGGAC 
TACAGCAGCA TCGAGAAGAT CAAGACCATC GGAGCCACGT ACATGGCGGC GTCAGGGCTG 
AACACCGCGC AGGCCCAGGA CGGCAGCCAC CCGCAGGAGC ACCTGCAGAT CCTGTTCGAG 
TTCGCCAAGG AGATGATGCG CGTGGTGGAC GACTTCAACA ACAACATGCT GTGGTTCAAC 
TTCAAGCTCC GCGTCGGCTT CAACCATGGG CCCCTCACGG CCGGGGTCAT CGGCACCACC 
AAGCTGCTGT ACGACATCTG GGGAGACACC GTCAACATCG CCAGCAGGAT GGACACCACC 
GGCGTGGAGT GCCGCATCCA GGTGAGCGAA GAGAGCTACC GCGTCTTGAG CAAGATGGGC 
TATGACTTCG ACTACAGAGG GACCGTGAAT GTCAAGGGGA AAGGCCAGAT GAAGACCTAC 
CTGTACCCAA AGTGCACGGA TCACAGGGTC ATCCCACAGC ACCAGCTGTC CATCTCCCCA 
GACATCCGCG TCCAGGTGGA TGGCAGCATC GGACGGTCTC CCACAGACGA GATTGCCAAC 
CTGGTGCCTT CTGTCCAGTA TGTGGACAAG ACATCTCTGG GTTCTGACAG CAGCACGCAG 
GCCAAGGATG CCCACCTGTC CCCCAAGAGA CCGTGGAAGG AGCCCGTCAA AGCCGAAGAA 
AGGGGTCGAT TTGGCAAAGC CATAGAGAAA GACGACTGTG ACGAAACAGG AATAGAAGAA 
GCCAACGAAC TCACCAAGCT CAACGTTTCA AAGAGTGTGT GA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADCY9 ( NM_001116.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_001107.2 Homo sapiens adenylate cyclase 9 (ADCY9), mRNA.

Price & Availability↑

CloneID	OHu21489
Clone ID Related Accession (Same CDS sequence)	NM_001116.3 , NM_001116.4
Accession Version	NM_001116.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4062bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-30
Organism	Homo sapiens(human)
Product	adenylate cyclase type 9
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC005736.1, AJ133123.1 and BQ614080.1. This sequence is a reference standard in the RefSeqGene project. On Nov 22, 2018 this sequence version replaced NM_001116.3. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC151229.1, AB011092.3 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000294016.8/ ENSP00000294016.3 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGCTTCCC CACCCCACCA GCAGCTGCTG CATCACCACA GCACCGAGGT GAGCTGCGAC 
TCCAGCGGGG ACAGCAACAG CGTGCGCGTC AAGATCAACC CCAAGCAGCT GTCCTCCAAC 
AGCCACCCCA AGCACTGCAA ATACAGCATC TCCTCTAGCT GCAGCAGCTC TGGGGACTCC 
GGGGGCGTCC CCCGGCGAGT GGGCGGCGGA GGCCGGCTGC GCAGGCAGAA GAAGCTGCCC 
CAGCTGTTCG AGAGGGCCTC CAGCCGCTGG TGGGACCCCA AGTTCGACTC GGTGAACCTG 
GAGGAGGCCT GCCTGGAGCG CTGCTTCCCG CAGACCCAGC GCCGGTTCCG GTATGCGCTC 
TTCTACATCG GCTTCGCCTG CCTTCTGTGG AGCATCTATT TTGCGGTCCA CATGAGATCC 
AGACTGATCG TCATGGTCGC CCCCGCGCTG TGCTTCCTCC TGGTGTGTGT GGGCTTCTTT 
CTGTTTACCT TCACCAAGCT GTACGCCCGG CATTACGCGT GGACCTCGCT GGCTCTCACC 
CTGCTGGTGT TCGCCCTGAC CCTGGCTGCG CAGTTCCAGG TCTTGACGCC TGTCTCAGGA 
CGCGGCGACA GCTCCAACCT TACGGCCACA GCCCGGCCCA CAGATACTTG CTTATCTCAA 
GTGGGGAGCT TCTCCATGTG CATCGAAGTG CTCTTTTTGC TCTATACCGT CATGCACTTA 
CCTTTGTACC TGAGTTTGTG TCTGGGGGTG GCCTACTCTG TCCTTTTCGA GACCTTTGGC 
TACCATTTCC GGGATGAAGC CTGCTTCCCC TCGCCCGGAG CCGGGGCCCT GCACTGGGAG 
CTGCTGAGCA GGGGGCTGCT CCACGGCTGC ATCCACGCCA TCGGGGTCCA CCTGTTCGTC 
ATGTCCCAGG TGAGGTCCAG GAGCACCTTC CTCAAGGTGG GGCAATCCAT TATGCACGGG 
AAGGACCTGG AAGTGGAAAA AGCCCTCAAA GAGAGGATGA TTCATTCCGT GATGCCAAGA 
ATCATAGCCG ATGACTTAAT GAAGCAGGGA GATGAGGAGA GTGAGAATTC TGTCAAGAGG 
CATGCCACCT CGAGCCCCAA GAACAGGAAG AAAAAGTCTT CCATCCAAAA AGCTCCTATA 
GCCTTCCGCC CTTTTAAGAT GCAGCAGATC GAAGAAGTCA GTATTTTATT TGCAGATATC 
GTGGGCTTCA CCAAGATGAG TGCCAACAAG TCTGCCCACG CCCTGGTGGG TCTCCTGAAC 
GATCTGTTCG GTCGCTTCGA CCGCCTGTGT GAGGAGACCA AGTGTGAGAA AATCAGCACC 
CTGGGAGACT GTTACTACTG CGTGGCGGGC TGTCCCGAGC CCCGGGCCGA CCATGCCTAC 
TGCTGCATCG AGATGGGCCT GGGCATGATC AAGGCCATCG AGCAGTTCTG CCAGGAGAAG 
AAGGAGATGG TGAACATGAG AGTCGGGGTG CACACGGGCA CCGTCCTTTG CGGCATCCTG 
GGCATGAGGA GGTTTAAATT TGACGTGTGG TCCAACGATG TGAACCTGGC CAATCTCATG 
GAGCAGCTGG GAGTGGCCGG CAAAGTTCAC ATTTCTGAGG CCACCGCAAA ATACTTAGAT 
GACCGGTACG AAATGGAAGA TGGGAAAGTT ATTGAACGGC TGGGCCAGAG CGTGGTTGCT 
GACCAGTTGA AAGGTTTGAA GACATACCTG ATATCGGGTC AGAGAGCCAA GGAGTCTCGC 
TGCAGCTGTG CAGAGGCCTT GCTTTCTGGC TTTGAGGTCA TTGACGGCTC ACAGGTGTCC 
TCAGGCCCTA GGGGACAGGG GACAGCGTCA TCAGGGAATG TCAGTGACTT GGCGCAGACT 
GTCAAAACCT TTGATAACCT TAAGACCTGC CCTTCGTGCG GAATCACATT TGCTCCCAAA 
TCTGAAGCCG GCGCCGAGGG AGGAGCACCT CAAAACGGCT GCCAAGACGA GCATAAAAAC 
AGCACCAAGG CTTCTGGAGG ACCTAATCCC AAAACTCAGA ACGGGCTCCT CAGCCCTCCC 
CAAGAGGAGA AGCTCACCAA CAGTCAGACT TCTCTGTGTG AGATCTTGCA GGAGAAGGGA 
AGGTGGGCAG GGGTGAGCCT GGACCAGTCG GCTCTCCTTC CGCTGAGGTT CAAGAACATC 
CGGGAGAAAA CGGACGCCCA CTTTGTGGAC GTTATCAAAG AAGACAGCCT GATGAAAGAT 
TACTTTTTTA AGCCGCCCAT TAATCAGTTC AGCCTGAACT TCCTGGATCA GGAGCTGGAG 
CGATCCTACA GGACCAGCTA TCAGGAAGAG GTCATAAAGA ACTCCCCCGT GAAGACGTTT 
GCTAGTCCCA CCTTCAGCTC CCTCCTGGAT GTGTTTCTGT CGACCACAGT GTTTCTGACG 
CTGTCCACCA CCTGCTTCCT GAAGTACGAG GCGGCCACCG TGCCTCCCCC GCCCGCCGCC 
CTGGCGGTCT TCAGTGCAGC CCTGCTGCTG GAGGTGCTGT CCCTCGCGGT GTCCATCAGG 
ATGGTGTTCT TCCTGGAGGA CGTCATGGCC TGCACCAAGC GCCTGCTGGA GTGGATCGCC 
GGCTGGCTAC CACGTCACTG CATCGGGGCC ATCCTGGTGT CGCTTCCCGC ACTGGCCGTC 
TACTCCCATG TCACCTCCGA ATATGAGACC AACATACACT TCCCAGTGTT CACAGGCTCG 
GCCGCGCTGA TTGCCGTCGT GCACTACTGT AACTTCTGCC AGCTCAGCTC CTGGATGAGG 
TCCTCCCTCG CCACCGTCGT GGGGGCCGGG CCGCTGCTCC TGCTCTACGT CTCCCTGTGC 
CCAGACAGTT CTGTATTAAC TTCGCCCCTT GACGCAGTAC AGAATTTCAG TTCCGAGAGG 
AACCCGTGCA ATAGTTCGGT GCCGCGTGAC CTCCGGCGGC CCGCCAGCCT CATCGGCCAG 
GAGGTGGTTC TCGTCTTCTT TCTCCTGCTC TTGTTGGTCT GGTTCCTGAA TCGCGAATTT 
GAAGTCAGCT ACCGCCTCCA CTACCACGGA GACGTGGAAG CGGATCTTCA CCGCACCAAG 
ATCCAGAGCA TGCGGGACCA GGCAGACTGG CTGCTGAGGA ACATCATCCC CTACCACGTG 
GCTGAGCAGC TGAAGGTGTC CCAGACCTAC TCCAAGAACC ATGACAGCGG AGGGGTGATC 
TTCGCCAGCA TCGTCAACTT CAGCGAGTTC TACGAGGAGA ACTACGAGGG CGGCAAGGAG 
TGCTACCGGG TCCTCAACGA GCTCATCGGG GACTTTGACG AGCTCCTAAG CAAGCCGGAC 
TACAGCAGCA TCGAGAAGAT CAAGACCATC GGAGCCACGT ACATGGCGGC GTCAGGGCTG 
AACACCGCGC AGGCCCAGGA CGGCAGCCAC CCGCAGGAGC ACCTGCAGAT CCTGTTCGAG 
TTCGCCAAGG AGATGATGCG CGTGGTGGAC GACTTCAACA ACAACATGCT GTGGTTCAAC 
TTCAAGCTCC GCGTCGGCTT CAACCATGGG CCCCTCACGG CCGGGGTCAT CGGCACCACC 
AAGCTGCTGT ACGACATCTG GGGAGACACC GTCAACATCG CCAGCAGGAT GGACACCACC 
GGCGTGGAGT GCCGCATCCA GGTGAGCGAA GAGAGCTACC GCGTCTTGAG CAAGATGGGC 
TATGACTTCG ACTACAGAGG GACCGTGAAT GTCAAGGGGA AAGGCCAGAT GAAGACCTAC 
CTGTACCCAA AGTGCACGGA TCACAGGGTC ATCCCACAGC ACCAGCTGTC CATCTCCCCA 
GACATCCGCG TCCAGGTGGA TGGCAGCATC GGACGGTCTC CCACAGACGA GATTGCCAAC 
CTGGTGCCTT CTGTCCAGTA TGTGGACAAG ACATCTCTGG GTTCTGACAG CAGCACGCAG 
GCCAAGGATG CCCACCTGTC CCCCAAGAGA CCGTGGAAGG AGCCCGTCAA AGCCGAAGAA 
AGGGGTCGAT TTGGCAAAGC CATAGAGAAA GACGACTGTG ACGAAACAGG AATAGAAGAA 
GCCAACGAAC TCACCAAGCT CAACGTTTCA AAGAGTGTGT GA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	NP_001107.2
CDS	797..4858
Translation	MASPPHQQLLHHHSTEVSCDSSGDSNSVRVKINPKQLSSNSHPKHCKYSISSSCSSSGDSGGVPRRVGGGGRLRRQKKLPQLFERASSRWWDPKFDSVNLEEACLERCFPQTQRRFRYALFYIGFACLLWSIYFAVHMRSRLIVMVAPALCFLLVCVGFFLFTFTKLYARHYAWTSLALTLLVFALTLAAQFQVLTPVSGRGDSSNLTATARPTDTCLSQVGSFSMCIEVLFLLYTVMHLPLYLSLCLGVAYSVLFETFGYHFRDEACFPSPGAGALHWELLSRGLLHGCIHAIGVHLFVMSQVRSRSTFLKVGQSIMHGKDLEVEKALKERMIHSVMPRIIADDLMKQGDEESENSVKRHATSSPKNRKKKSSIQKAPIAFRPFKMQQIEEVSILFADIVGFTKMSANKSAHALVGLLNDLFGRFDRLCEETKCEKISTLGDCYYCVAGCPEPRADHAYCCIEMGLGMIKAIEQFCQEKKEMVNMRVGVHTGTVLCGILGMRRFKFDVWSNDVNLANLMEQLGVAGKVHISEATAKYLDDRYEMEDGKVIERLGQSVVADQLKGLKTYLISGQRAKESRCSCAEALLSGFEVIDGSQVSSGPRGQGTASSGNVSDLAQTVKTFDNLKTCPSCGITFAPKSEAGAEGGAPQNGCQDEHKNSTKASGGPNPKTQNGLLSPPQEEKLTNSQTSLCEILQEKGRWAGVSLDQSALLPLRFKNIREKTDAHFVDVIKEDSLMKDYFFKPPINQFSLNFLDQELERSYRTSYQEEVIKNSPVKTFASPTFSSLLDVFLSTTVFLTLSTTCFLKYEAATVPPPPAALAVFSAALLLEVLSLAVSIRMVFFLEDVMACTKRLLEWIAGWLPRHCIGAILVSLPALAVYSHVTSEYETNIHFPVFTGSAALIAVVHYCNFCQLSSWMRSSLATVVGAGPLLLLYVSLCPDSSVLTSPLDAVQNFSSERNPCNSSVPRDLRRPASLIGQEVVLVFFLLLLLVWFLNREFEVSYRLHYHGDVEADLHRTKIQSMRDQADWLLRNIIPYHVAEQLKVSQTYSKNHDSGGVIFASIVNFSEFYEENYEGGKECYRVLNELIGDFDELLSKPDYSSIEKIKTIGATYMAASGLNTAQAQDGSHPQEHLQILFEFAKEMMRVVDDFNNNMLWFNFKLRVGFNHGPLTAGVIGTTKLLYDIWGDTVNIASRMDTTGVECRIQVSEESYRVLSKMGYDFDYRGTVNVKGKGQMKTYLYPKCTDHRVIPQHQLSISPDIRVQVDGSIGRSPTDEIANLVPSVQYVDKTSLGSDSSTQAKDAHLSPKRPWKEPVKAEERGRFGKAIEKDDCDETGIEEANELTKLNVSKSV

Target ORF information:

RefSeq Version	NM_001116.4
Organism	Homo sapiens(human)
Definition	Homo sapiens adenylate cyclase 9 (ADCY9), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001116.4

ORF Insert Sequence:

ATGGCTTCCC CACCCCACCA GCAGCTGCTG CATCACCACA GCACCGAGGT GAGCTGCGAC 
TCCAGCGGGG ACAGCAACAG CGTGCGCGTC AAGATCAACC CCAAGCAGCT GTCCTCCAAC 
AGCCACCCCA AGCACTGCAA ATACAGCATC TCCTCTAGCT GCAGCAGCTC TGGGGACTCC 
GGGGGCGTCC CCCGGCGAGT GGGCGGCGGA GGCCGGCTGC GCAGGCAGAA GAAGCTGCCC 
CAGCTGTTCG AGAGGGCCTC CAGCCGCTGG TGGGACCCCA AGTTCGACTC GGTGAACCTG 
GAGGAGGCCT GCCTGGAGCG CTGCTTCCCG CAGACCCAGC GCCGGTTCCG GTATGCGCTC 
TTCTACATCG GCTTCGCCTG CCTTCTGTGG AGCATCTATT TTGCGGTCCA CATGAGATCC 
AGACTGATCG TCATGGTCGC CCCCGCGCTG TGCTTCCTCC TGGTGTGTGT GGGCTTCTTT 
CTGTTTACCT TCACCAAGCT GTACGCCCGG CATTACGCGT GGACCTCGCT GGCTCTCACC 
CTGCTGGTGT TCGCCCTGAC CCTGGCTGCG CAGTTCCAGG TCTTGACGCC TGTCTCAGGA 
CGCGGCGACA GCTCCAACCT TACGGCCACA GCCCGGCCCA CAGATACTTG CTTATCTCAA 
GTGGGGAGCT TCTCCATGTG CATCGAAGTG CTCTTTTTGC TCTATACCGT CATGCACTTA 
CCTTTGTACC TGAGTTTGTG TCTGGGGGTG GCCTACTCTG TCCTTTTCGA GACCTTTGGC 
TACCATTTCC GGGATGAAGC CTGCTTCCCC TCGCCCGGAG CCGGGGCCCT GCACTGGGAG 
CTGCTGAGCA GGGGGCTGCT CCACGGCTGC ATCCACGCCA TCGGGGTCCA CCTGTTCGTC 
ATGTCCCAGG TGAGGTCCAG GAGCACCTTC CTCAAGGTGG GGCAATCCAT TATGCACGGG 
AAGGACCTGG AAGTGGAAAA AGCCCTCAAA GAGAGGATGA TTCATTCCGT GATGCCAAGA 
ATCATAGCCG ATGACTTAAT GAAGCAGGGA GATGAGGAGA GTGAGAATTC TGTCAAGAGG 
CATGCCACCT CGAGCCCCAA GAACAGGAAG AAAAAGTCTT CCATCCAAAA AGCTCCTATA 
GCCTTCCGCC CTTTTAAGAT GCAGCAGATC GAAGAAGTCA GTATTTTATT TGCAGATATC 
GTGGGCTTCA CCAAGATGAG TGCCAACAAG TCTGCCCACG CCCTGGTGGG TCTCCTGAAC 
GATCTGTTCG GTCGCTTCGA CCGCCTGTGT GAGGAGACCA AGTGTGAGAA AATCAGCACC 
CTGGGAGACT GTTACTACTG CGTGGCGGGC TGTCCCGAGC CCCGGGCCGA CCATGCCTAC 
TGCTGCATCG AGATGGGCCT GGGCATGATC AAGGCCATCG AGCAGTTCTG CCAGGAGAAG 
AAGGAGATGG TGAACATGAG AGTCGGGGTG CACACGGGCA CCGTCCTTTG CGGCATCCTG 
GGCATGAGGA GGTTTAAATT TGACGTGTGG TCCAACGATG TGAACCTGGC CAATCTCATG 
GAGCAGCTGG GAGTGGCCGG CAAAGTTCAC ATTTCTGAGG CCACCGCAAA ATACTTAGAT 
GACCGGTACG AAATGGAAGA TGGGAAAGTT ATTGAACGGC TGGGCCAGAG CGTGGTTGCT 
GACCAGTTGA AAGGTTTGAA GACATACCTG ATATCGGGTC AGAGAGCCAA GGAGTCTCGC 
TGCAGCTGTG CAGAGGCCTT GCTTTCTGGC TTTGAGGTCA TTGACGGCTC ACAGGTGTCC 
TCAGGCCCTA GGGGACAGGG GACAGCGTCA TCAGGGAATG TCAGTGACTT GGCGCAGACT 
GTCAAAACCT TTGATAACCT TAAGACCTGC CCTTCGTGCG GAATCACATT TGCTCCCAAA 
TCTGAAGCCG GCGCCGAGGG AGGAGCACCT CAAAACGGCT GCCAAGACGA GCATAAAAAC 
AGCACCAAGG CTTCTGGAGG ACCTAATCCC AAAACTCAGA ACGGGCTCCT CAGCCCTCCC 
CAAGAGGAGA AGCTCACCAA CAGTCAGACT TCTCTGTGTG AGATCTTGCA GGAGAAGGGA 
AGGTGGGCAG GGGTGAGCCT GGACCAGTCG GCTCTCCTTC CGCTGAGGTT CAAGAACATC 
CGGGAGAAAA CGGACGCCCA CTTTGTGGAC GTTATCAAAG AAGACAGCCT GATGAAAGAT 
TACTTTTTTA AGCCGCCCAT TAATCAGTTC AGCCTGAACT TCCTGGATCA GGAGCTGGAG 
CGATCCTACA GGACCAGCTA TCAGGAAGAG GTCATAAAGA ACTCCCCCGT GAAGACGTTT 
GCTAGTCCCA CCTTCAGCTC CCTCCTGGAT GTGTTTCTGT CGACCACAGT GTTTCTGACG 
CTGTCCACCA CCTGCTTCCT GAAGTACGAG GCGGCCACCG TGCCTCCCCC GCCCGCCGCC 
CTGGCGGTCT TCAGTGCAGC CCTGCTGCTG GAGGTGCTGT CCCTCGCGGT GTCCATCAGG 
ATGGTGTTCT TCCTGGAGGA CGTCATGGCC TGCACCAAGC GCCTGCTGGA GTGGATCGCC 
GGCTGGCTAC CACGTCACTG CATCGGGGCC ATCCTGGTGT CGCTTCCCGC ACTGGCCGTC 
TACTCCCATG TCACCTCCGA ATATGAGACC AACATACACT TCCCAGTGTT CACAGGCTCG 
GCCGCGCTGA TTGCCGTCGT GCACTACTGT AACTTCTGCC AGCTCAGCTC CTGGATGAGG 
TCCTCCCTCG CCACCGTCGT GGGGGCCGGG CCGCTGCTCC TGCTCTACGT CTCCCTGTGC 
CCAGACAGTT CTGTATTAAC TTCGCCCCTT GACGCAGTAC AGAATTTCAG TTCCGAGAGG 
AACCCGTGCA ATAGTTCGGT GCCGCGTGAC CTCCGGCGGC CCGCCAGCCT CATCGGCCAG 
GAGGTGGTTC TCGTCTTCTT TCTCCTGCTC TTGTTGGTCT GGTTCCTGAA TCGCGAATTT 
GAAGTCAGCT ACCGCCTCCA CTACCACGGA GACGTGGAAG CGGATCTTCA CCGCACCAAG 
ATCCAGAGCA TGCGGGACCA GGCAGACTGG CTGCTGAGGA ACATCATCCC CTACCACGTG 
GCTGAGCAGC TGAAGGTGTC CCAGACCTAC TCCAAGAACC ATGACAGCGG AGGGGTGATC 
TTCGCCAGCA TCGTCAACTT CAGCGAGTTC TACGAGGAGA ACTACGAGGG CGGCAAGGAG 
TGCTACCGGG TCCTCAACGA GCTCATCGGG GACTTTGACG AGCTCCTAAG CAAGCCGGAC 
TACAGCAGCA TCGAGAAGAT CAAGACCATC GGAGCCACGT ACATGGCGGC GTCAGGGCTG 
AACACCGCGC AGGCCCAGGA CGGCAGCCAC CCGCAGGAGC ACCTGCAGAT CCTGTTCGAG 
TTCGCCAAGG AGATGATGCG CGTGGTGGAC GACTTCAACA ACAACATGCT GTGGTTCAAC 
TTCAAGCTCC GCGTCGGCTT CAACCATGGG CCCCTCACGG CCGGGGTCAT CGGCACCACC 
AAGCTGCTGT ACGACATCTG GGGAGACACC GTCAACATCG CCAGCAGGAT GGACACCACC 
GGCGTGGAGT GCCGCATCCA GGTGAGCGAA GAGAGCTACC GCGTCTTGAG CAAGATGGGC 
TATGACTTCG ACTACAGAGG GACCGTGAAT GTCAAGGGGA AAGGCCAGAT GAAGACCTAC 
CTGTACCCAA AGTGCACGGA TCACAGGGTC ATCCCACAGC ACCAGCTGTC CATCTCCCCA 
GACATCCGCG TCCAGGTGGA TGGCAGCATC GGACGGTCTC CCACAGACGA GATTGCCAAC 
CTGGTGCCTT CTGTCCAGTA TGTGGACAAG ACATCTCTGG GTTCTGACAG CAGCACGCAG 
GCCAAGGATG CCCACCTGTC CCCCAAGAGA CCGTGGAAGG AGCCCGTCAA AGCCGAAGAA 
AGGGGTCGAT TTGGCAAAGC CATAGAGAAA GACGACTGTG ACGAAACAGG AATAGAAGAA 
GCCAACGAAC TCACCAAGCT CAACGTTTCA AAGAGTGTGT GA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADCY9 ( XM_011522353.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011520655.1 Homo sapiens adenylate cyclase 9 (ADCY9), transcript variant X2, mRNA.

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CloneID	OHu56169
Clone ID Related Accession (Same CDS sequence)	XM_011522353.2
Accession Version	XM_011522353.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3006bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	adenylate cyclase type 9 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011522353.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCC CACCCCACCA GCAGCTGCTG CATCACCACA GCACCGAGGT GAGCTGCGAC 
TCCAGCGGGG ACAGCAACAG CGTGCGCGTC AAGATCAACC CCAAGCAGCT GTCCTCCAAC 
AGCCACCCCA AGCACTGCAA ATACAGCATC TCCTCTAGCT GCAGCAGCTC TGGGGACTCC 
GGGGGCGTCC CCCGGCGAGT GGGCGGCGGA GGCCGGCTGC GCAGGCAGAA GAAGCTGCCC 
CAGCTGTTCG AGAGGGCCTC CAGCCGCTGG TGGGACCCCA AGTTCGACTC GGTGAACCTG 
GAGGAGGCCT GCCTGGAGCG CTGCTTCCCG CAGACCCAGC GCCGGTTCCG GTATGCGCTC 
TTCTACATCG GCTTCGCCTG CCTTCTGTGG AGCATCTATT TTGCGGTCCA CATGAGATCC 
AGACTGATCG TCATGGTCGC CCCCGCGCTG TGCTTCCTCC TGGTGTGTGT GGGCTTCTTT 
CTGTTTACCT TCACCAAGCT GTACGCCCGG CATTACGCGT GGACCTCGCT GGCTCTCACC 
CTGCTGGTGT TCGCCCTGAC CCTGGCTGCG CAGTTCCAGG TCTTGACGCC TGTCTCAGGA 
CGCGGCGACA GCTCCAACCT TACGGCCACA GCCCGGCCCA CAGATACTTG CTTATCTCAA 
GTGGGGAGCT TCTCCATGTG CATCGAAGTG CTCTTTTTGC TCTATACCGT CATGCACTTA 
CCTTTGTACC TGAGTTTGTG TCTGGGGGTG GCCTACTCTG TCCTTTTCGA GACCTTTGGC 
TACCATTTCC GGGATGAAGC CTGCTTCCCC TCGCCCGGAG CCGGGGCCCT GCACTGGGAG 
CTGCTGAGCA GGGGGCTGCT CCACGGCTGC ATCCACGCCA TCGGGGTCCA CCTGTTCGTC 
ATGTCCCAGG TGAGGTCCAG GAGCACCTTC CTCAAGGTGG GGCAATCCAT TATGCACGGG 
AAGGACCTGG AAGTGGAAAA AGCCCTCAAA GAGAGGATGA TTCATTCCGT GATGCCAAGA 
ATCATAGCCG ATGACTTAAT GAAGCAGGGA GATGAGGAGA GTGAGAATTC TGTCAAGAGG 
CATGCCACCT CGAGCCCCAA GAACAGGAAG AAAAAGTCTT CCATCCAAAA AGCTCCTATA 
GCCTTCCGCC CTTTTAAGAT GCAGCAGATC GAAGAAGTCA GTATTTTATT TGCAGATATC 
GTGGGCTTCA CCAAGATGAG TGCCAACAAG TCTGCCCACG CCCTGGTGGG TCTCCTGAAC 
GATCTGTTCG GTCGCTTCGA CCGCCTGTGT GAGGAGACCA AGTGTGAGAA AATCAGCACC 
CTGGGAGACT GTTACTACTG CGTGGCGGGC TGTCCCGAGC CCCGGGCCGA CCATGCCTAC 
TGCTGCATCG AGATGGGCCT GGGCATGATC AAGGCCATCG AGCAGTTCTG CCAGGAGAAG 
AAGGAGATGG TGAACATGAG AGTCGGGGTG CACACGGGCA CCGTCCTTTG CGGCATCCTG 
GGCATGAGGA GGTTTAAATT TGACGTGTGG TCCAACGATG TGAACCTGGC CAATCTCATG 
GAGCAGCTGG GAGTGGCCGG CAAAGTTCAC ATTTCTGAGG CCACCGCAAA ATACTTAGAT 
GACCGGTACG AAATGGAAGA TGGGAAAGTT ATTGAACGGC TGGGCCAGAG CGTGGTTGCT 
GACCAGTTGA AAGGTTTGAA GACATACCTG ATATCGGGTC AGAGAGCCAA GGAGTCTCGC 
TGCAGCTGTG CAGAGGCCTT GCTTTCTGGC TTTGAGGTCA TTGACGGCTC ACAGGTGTCC 
TCAGGCCCTA GGGGACAGGG GACAGCGTCA TCAGGGAATG TCAGTGACTT GGCGCAGACT 
GTCAAAACCT TTGATAACCT TAAGACCTGC CCTTCGTGCG GAATCACATT TGCTCCCAAA 
TCTGAAGCCG GCGCCGAGGG AGGAGCACCT CAAAACGGCT GCCAAGACGA GCATAAAAAC 
AGCACCAAGG TAACAAGCTC ATGGCTGTTG TTCCTGTCAG TTCCTCTCCT GGCGCATCCA 
CCCAAGGCTT CTGGAGGACC TAATCCCAAA ACTCAGAACG GGCTCCTCAG CCCTCCCCAA 
GAGGAGAAGC TCACCAACAG TCAGACTTCT CTGTGTGAGA TCTTGCAGGA GAAGGGAAGG 
TGGGCAGGGG TGAGCCTGGA CCAGTCGGCT CTCCTTCCGC TGAGGTTCAA GAACATCCGG 
GAGAAAACGG ACGCCCACTT TGTGGACGTT ATCAAAGAAG ACAGCCTGAT GAAAGATTAC 
TTTTTTAAGC CGCCCATTAA TCAGTTCAGC CTGAACTTCC TGGATCAGGA GCTGGAGCGA 
TCCTACAGGA CCAGCTATCA GGAAGAGGTC ATAAAGAACT CCCCCGTGAA GACGTTTGCT 
AGTCCCACCT TCAGCTCCCT CCTGGATGTG TTTCTGTCGA CCACAGTGTT TCTGACGCTG 
TCCACCACCT GCTTCCTGAA GTACGAGGCG GCCACCGTGC CTCCCCCGCC CGCCGCCCTG 
GCGGTCTTCA GTGCAGCCCT GCTGCTGGAG GTGCTGTCCC TCGCGGTGTC CATCAGGATG 
GTGTTCTTCC TGGAGGACGT CATGGCCTGC ACCAAGCGCC TGCTGGAGTG GATCGCCGGC 
TGGCTACCAC GTCACTGCAT CGGGGCCATC CTGGTGTCGC TTCCCGCACT GGCCGTCTAC 
TCCCATGTCA CCTCCGAATA TGAGACCAAC ATACACTTCC CAGTGTTCAC AGGCTCGGCC 
GCGCTGATTG CCGTCGTGCA CTACTGTAAC TTCTGCCAGC TCAGCTCCTG GATGAGGTCC 
TCCCTCGCCA CCGTCGTGGG GGCCGGGCCG CTGCTCCTGC TCTACGTCTC CCTGTGCCCA 
GACAGTTCTG TATTAACTTC GCCCCTTGAC GCAGTACAGA ATTTCAGAAG ACGAGAACCC 
TGTGGAGAGG GAGACTCCAA GTTTCCCTTC AGTTCACAGG AAGAGAGTTG CCGTGCAGGA 
GCCTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011520655.1
CDS	367..3372
Translation	MASPPHQQLLHHHSTEVSCDSSGDSNSVRVKINPKQLSSNSHPKHCKYSISSSCSSSGDSGGVPRRVGGGGRLRRQKKLPQLFERASSRWWDPKFDSVNLEEACLERCFPQTQRRFRYALFYIGFACLLWSIYFAVHMRSRLIVMVAPALCFLLVCVGFFLFTFTKLYARHYAWTSLALTLLVFALTLAAQFQVLTPVSGRGDSSNLTATARPTDTCLSQVGSFSMCIEVLFLLYTVMHLPLYLSLCLGVAYSVLFETFGYHFRDEACFPSPGAGALHWELLSRGLLHGCIHAIGVHLFVMSQVRSRSTFLKVGQSIMHGKDLEVEKALKERMIHSVMPRIIADDLMKQGDEESENSVKRHATSSPKNRKKKSSIQKAPIAFRPFKMQQIEEVSILFADIVGFTKMSANKSAHALVGLLNDLFGRFDRLCEETKCEKISTLGDCYYCVAGCPEPRADHAYCCIEMGLGMIKAIEQFCQEKKEMVNMRVGVHTGTVLCGILGMRRFKFDVWSNDVNLANLMEQLGVAGKVHISEATAKYLDDRYEMEDGKVIERLGQSVVADQLKGLKTYLISGQRAKESRCSCAEALLSGFEVIDGSQVSSGPRGQGTASSGNVSDLAQTVKTFDNLKTCPSCGITFAPKSEAGAEGGAPQNGCQDEHKNSTKVTSSWLLFLSVPLLAHPPKASGGPNPKTQNGLLSPPQEEKLTNSQTSLCEILQEKGRWAGVSLDQSALLPLRFKNIREKTDAHFVDVIKEDSLMKDYFFKPPINQFSLNFLDQELERSYRTSYQEEVIKNSPVKTFASPTFSSLLDVFLSTTVFLTLSTTCFLKYEAATVPPPPAALAVFSAALLLEVLSLAVSIRMVFFLEDVMACTKRLLEWIAGWLPRHCIGAILVSLPALAVYSHVTSEYETNIHFPVFTGSAALIAVVHYCNFCQLSSWMRSSLATVVGAGPLLLLYVSLCPDSSVLTSPLDAVQNFRRREPCGEGDSKFPFSSQEESCRAGA

Target ORF information:

RefSeq Version	XM_011522353.2
Organism	Homo sapiens(human)
Definition	Homo sapiens adenylate cyclase 9 (ADCY9), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011522353.2

ORF Insert Sequence:

ATGGCTTCCC CACCCCACCA GCAGCTGCTG CATCACCACA GCACCGAGGT GAGCTGCGAC 
TCCAGCGGGG ACAGCAACAG CGTGCGCGTC AAGATCAACC CCAAGCAGCT GTCCTCCAAC 
AGCCACCCCA AGCACTGCAA ATACAGCATC TCCTCTAGCT GCAGCAGCTC TGGGGACTCC 
GGGGGCGTCC CCCGGCGAGT GGGCGGCGGA GGCCGGCTGC GCAGGCAGAA GAAGCTGCCC 
CAGCTGTTCG AGAGGGCCTC CAGCCGCTGG TGGGACCCCA AGTTCGACTC GGTGAACCTG 
GAGGAGGCCT GCCTGGAGCG CTGCTTCCCG CAGACCCAGC GCCGGTTCCG GTATGCGCTC 
TTCTACATCG GCTTCGCCTG CCTTCTGTGG AGCATCTATT TTGCGGTCCA CATGAGATCC 
AGACTGATCG TCATGGTCGC CCCCGCGCTG TGCTTCCTCC TGGTGTGTGT GGGCTTCTTT 
CTGTTTACCT TCACCAAGCT GTACGCCCGG CATTACGCGT GGACCTCGCT GGCTCTCACC 
CTGCTGGTGT TCGCCCTGAC CCTGGCTGCG CAGTTCCAGG TCTTGACGCC TGTCTCAGGA 
CGCGGCGACA GCTCCAACCT TACGGCCACA GCCCGGCCCA CAGATACTTG CTTATCTCAA 
GTGGGGAGCT TCTCCATGTG CATCGAAGTG CTCTTTTTGC TCTATACCGT CATGCACTTA 
CCTTTGTACC TGAGTTTGTG TCTGGGGGTG GCCTACTCTG TCCTTTTCGA GACCTTTGGC 
TACCATTTCC GGGATGAAGC CTGCTTCCCC TCGCCCGGAG CCGGGGCCCT GCACTGGGAG 
CTGCTGAGCA GGGGGCTGCT CCACGGCTGC ATCCACGCCA TCGGGGTCCA CCTGTTCGTC 
ATGTCCCAGG TGAGGTCCAG GAGCACCTTC CTCAAGGTGG GGCAATCCAT TATGCACGGG 
AAGGACCTGG AAGTGGAAAA AGCCCTCAAA GAGAGGATGA TTCATTCCGT GATGCCAAGA 
ATCATAGCCG ATGACTTAAT GAAGCAGGGA GATGAGGAGA GTGAGAATTC TGTCAAGAGG 
CATGCCACCT CGAGCCCCAA GAACAGGAAG AAAAAGTCTT CCATCCAAAA AGCTCCTATA 
GCCTTCCGCC CTTTTAAGAT GCAGCAGATC GAAGAAGTCA GTATTTTATT TGCAGATATC 
GTGGGCTTCA CCAAGATGAG TGCCAACAAG TCTGCCCACG CCCTGGTGGG TCTCCTGAAC 
GATCTGTTCG GTCGCTTCGA CCGCCTGTGT GAGGAGACCA AGTGTGAGAA AATCAGCACC 
CTGGGAGACT GTTACTACTG CGTGGCGGGC TGTCCCGAGC CCCGGGCCGA CCATGCCTAC 
TGCTGCATCG AGATGGGCCT GGGCATGATC AAGGCCATCG AGCAGTTCTG CCAGGAGAAG 
AAGGAGATGG TGAACATGAG AGTCGGGGTG CACACGGGCA CCGTCCTTTG CGGCATCCTG 
GGCATGAGGA GGTTTAAATT TGACGTGTGG TCCAACGATG TGAACCTGGC CAATCTCATG 
GAGCAGCTGG GAGTGGCCGG CAAAGTTCAC ATTTCTGAGG CCACCGCAAA ATACTTAGAT 
GACCGGTACG AAATGGAAGA TGGGAAAGTT ATTGAACGGC TGGGCCAGAG CGTGGTTGCT 
GACCAGTTGA AAGGTTTGAA GACATACCTG ATATCGGGTC AGAGAGCCAA GGAGTCTCGC 
TGCAGCTGTG CAGAGGCCTT GCTTTCTGGC TTTGAGGTCA TTGACGGCTC ACAGGTGTCC 
TCAGGCCCTA GGGGACAGGG GACAGCGTCA TCAGGGAATG TCAGTGACTT GGCGCAGACT 
GTCAAAACCT TTGATAACCT TAAGACCTGC CCTTCGTGCG GAATCACATT TGCTCCCAAA 
TCTGAAGCCG GCGCCGAGGG AGGAGCACCT CAAAACGGCT GCCAAGACGA GCATAAAAAC 
AGCACCAAGG TAACAAGCTC ATGGCTGTTG TTCCTGTCAG TTCCTCTCCT GGCGCATCCA 
CCCAAGGCTT CTGGAGGACC TAATCCCAAA ACTCAGAACG GGCTCCTCAG CCCTCCCCAA 
GAGGAGAAGC TCACCAACAG TCAGACTTCT CTGTGTGAGA TCTTGCAGGA GAAGGGAAGG 
TGGGCAGGGG TGAGCCTGGA CCAGTCGGCT CTCCTTCCGC TGAGGTTCAA GAACATCCGG 
GAGAAAACGG ACGCCCACTT TGTGGACGTT ATCAAAGAAG ACAGCCTGAT GAAAGATTAC 
TTTTTTAAGC CGCCCATTAA TCAGTTCAGC CTGAACTTCC TGGATCAGGA GCTGGAGCGA 
TCCTACAGGA CCAGCTATCA GGAAGAGGTC ATAAAGAACT CCCCCGTGAA GACGTTTGCT 
AGTCCCACCT TCAGCTCCCT CCTGGATGTG TTTCTGTCGA CCACAGTGTT TCTGACGCTG 
TCCACCACCT GCTTCCTGAA GTACGAGGCG GCCACCGTGC CTCCCCCGCC CGCCGCCCTG 
GCGGTCTTCA GTGCAGCCCT GCTGCTGGAG GTGCTGTCCC TCGCGGTGTC CATCAGGATG 
GTGTTCTTCC TGGAGGACGT CATGGCCTGC ACCAAGCGCC TGCTGGAGTG GATCGCCGGC 
TGGCTACCAC GTCACTGCAT CGGGGCCATC CTGGTGTCGC TTCCCGCACT GGCCGTCTAC 
TCCCATGTCA CCTCCGAATA TGAGACCAAC ATACACTTCC CAGTGTTCAC AGGCTCGGCC 
GCGCTGATTG CCGTCGTGCA CTACTGTAAC TTCTGCCAGC TCAGCTCCTG GATGAGGTCC 
TCCCTCGCCA CCGTCGTGGG GGCCGGGCCG CTGCTCCTGC TCTACGTCTC CCTGTGCCCA 
GACAGTTCTG TATTAACTTC GCCCCTTGAC GCAGTACAGA ATTTCAGAAG ACGAGAACCC 
TGTGGAGAGG GAGACTCCAA GTTTCCCTTC AGTTCACAGG AAGAGAGTTG CCGTGCAGGA 
GCCTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

ADCY9 ( XM_005255079.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005255136.1 Homo sapiens adenylate cyclase 9 (ADCY9), transcript variant X1, mRNA.

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CloneID	OHu48746
Clone ID Related Accession (Same CDS sequence)	XM_005255079.3
Accession Version	XM_005255079.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4119bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	adenylate cyclase type 9 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000016.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005255079.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTTCCC CACCCCACCA GCAGCTGCTG CATCACCACA GCACCGAGGT GAGCTGCGAC 
TCCAGCGGGG ACAGCAACAG CGTGCGCGTC AAGATCAACC CCAAGCAGCT GTCCTCCAAC 
AGCCACCCCA AGCACTGCAA ATACAGCATC TCCTCTAGCT GCAGCAGCTC TGGGGACTCC 
GGGGGCGTCC CCCGGCGAGT GGGCGGCGGA GGCCGGCTGC GCAGGCAGAA GAAGCTGCCC 
CAGCTGTTCG AGAGGGCCTC CAGCCGCTGG TGGGACCCCA AGTTCGACTC GGTGAACCTG 
GAGGAGGCCT GCCTGGAGCG CTGCTTCCCG CAGACCCAGC GCCGGTTCCG GTATGCGCTC 
TTCTACATCG GCTTCGCCTG CCTTCTGTGG AGCATCTATT TTGCGGTCCA CATGAGATCC 
AGACTGATCG TCATGGTCGC CCCCGCGCTG TGCTTCCTCC TGGTGTGTGT GGGCTTCTTT 
CTGTTTACCT TCACCAAGCT GTACGCCCGG CATTACGCGT GGACCTCGCT GGCTCTCACC 
CTGCTGGTGT TCGCCCTGAC CCTGGCTGCG CAGTTCCAGG TCTTGACGCC TGTCTCAGGA 
CGCGGCGACA GCTCCAACCT TACGGCCACA GCCCGGCCCA CAGATACTTG CTTATCTCAA 
GTGGGGAGCT TCTCCATGTG CATCGAAGTG CTCTTTTTGC TCTATACCGT CATGCACTTA 
CCTTTGTACC TGAGTTTGTG TCTGGGGGTG GCCTACTCTG TCCTTTTCGA GACCTTTGGC 
TACCATTTCC GGGATGAAGC CTGCTTCCCC TCGCCCGGAG CCGGGGCCCT GCACTGGGAG 
CTGCTGAGCA GGGGGCTGCT CCACGGCTGC ATCCACGCCA TCGGGGTCCA CCTGTTCGTC 
ATGTCCCAGG TGAGGTCCAG GAGCACCTTC CTCAAGGTGG GGCAATCCAT TATGCACGGG 
AAGGACCTGG AAGTGGAAAA AGCCCTCAAA GAGAGGATGA TTCATTCCGT GATGCCAAGA 
ATCATAGCCG ATGACTTAAT GAAGCAGGGA GATGAGGAGA GTGAGAATTC TGTCAAGAGG 
CATGCCACCT CGAGCCCCAA GAACAGGAAG AAAAAGTCTT CCATCCAAAA AGCTCCTATA 
GCCTTCCGCC CTTTTAAGAT GCAGCAGATC GAAGAAGTCA GTATTTTATT TGCAGATATC 
GTGGGCTTCA CCAAGATGAG TGCCAACAAG TCTGCCCACG CCCTGGTGGG TCTCCTGAAC 
GATCTGTTCG GTCGCTTCGA CCGCCTGTGT GAGGAGACCA AGTGTGAGAA AATCAGCACC 
CTGGGAGACT GTTACTACTG CGTGGCGGGC TGTCCCGAGC CCCGGGCCGA CCATGCCTAC 
TGCTGCATCG AGATGGGCCT GGGCATGATC AAGGCCATCG AGCAGTTCTG CCAGGAGAAG 
AAGGAGATGG TGAACATGAG AGTCGGGGTG CACACGGGCA CCGTCCTTTG CGGCATCCTG 
GGCATGAGGA GGTTTAAATT TGACGTGTGG TCCAACGATG TGAACCTGGC CAATCTCATG 
GAGCAGCTGG GAGTGGCCGG CAAAGTTCAC ATTTCTGAGG CCACCGCAAA ATACTTAGAT 
GACCGGTACG AAATGGAAGA TGGGAAAGTT ATTGAACGGC TGGGCCAGAG CGTGGTTGCT 
GACCAGTTGA AAGGTTTGAA GACATACCTG ATATCGGGTC AGAGAGCCAA GGAGTCTCGC 
TGCAGCTGTG CAGAGGCCTT GCTTTCTGGC TTTGAGGTCA TTGACGGCTC ACAGGTGTCC 
TCAGGCCCTA GGGGACAGGG GACAGCGTCA TCAGGGAATG TCAGTGACTT GGCGCAGACT 
GTCAAAACCT TTGATAACCT TAAGACCTGC CCTTCGTGCG GAATCACATT TGCTCCCAAA 
TCTGAAGCCG GCGCCGAGGG AGGAGCACCT CAAAACGGCT GCCAAGACGA GCATAAAAAC 
AGCACCAAGG TAACAAGCTC ATGGCTGTTG TTCCTGTCAG TTCCTCTCCT GGCGCATCCA 
CCCAAGGCTT CTGGAGGACC TAATCCCAAA ACTCAGAACG GGCTCCTCAG CCCTCCCCAA 
GAGGAGAAGC TCACCAACAG TCAGACTTCT CTGTGTGAGA TCTTGCAGGA GAAGGGAAGG 
TGGGCAGGGG TGAGCCTGGA CCAGTCGGCT CTCCTTCCGC TGAGGTTCAA GAACATCCGG 
GAGAAAACGG ACGCCCACTT TGTGGACGTT ATCAAAGAAG ACAGCCTGAT GAAAGATTAC 
TTTTTTAAGC CGCCCATTAA TCAGTTCAGC CTGAACTTCC TGGATCAGGA GCTGGAGCGA 
TCCTACAGGA CCAGCTATCA GGAAGAGGTC ATAAAGAACT CCCCCGTGAA GACGTTTGCT 
AGTCCCACCT TCAGCTCCCT CCTGGATGTG TTTCTGTCGA CCACAGTGTT TCTGACGCTG 
TCCACCACCT GCTTCCTGAA GTACGAGGCG GCCACCGTGC CTCCCCCGCC CGCCGCCCTG 
GCGGTCTTCA GTGCAGCCCT GCTGCTGGAG GTGCTGTCCC TCGCGGTGTC CATCAGGATG 
GTGTTCTTCC TGGAGGACGT CATGGCCTGC ACCAAGCGCC TGCTGGAGTG GATCGCCGGC 
TGGCTACCAC GTCACTGCAT CGGGGCCATC CTGGTGTCGC TTCCCGCACT GGCCGTCTAC 
TCCCATGTCA CCTCCGAATA TGAGACCAAC ATACACTTCC CAGTGTTCAC AGGCTCGGCC 
GCGCTGATTG CCGTCGTGCA CTACTGTAAC TTCTGCCAGC TCAGCTCCTG GATGAGGTCC 
TCCCTCGCCA CCGTCGTGGG GGCCGGGCCG CTGCTCCTGC TCTACGTCTC CCTGTGCCCA 
GACAGTTCTG TATTAACTTC GCCCCTTGAC GCAGTACAGA ATTTCAGTTC CGAGAGGAAC 
CCGTGCAATA GTTCGGTGCC GCGTGACCTC CGGCGGCCCG CCAGCCTCAT CGGCCAGGAG 
GTGGTTCTCG TCTTCTTTCT CCTGCTCTTG TTGGTCTGGT TCCTGAATCG CGAATTTGAA 
GTCAGCTACC GCCTCCACTA CCACGGAGAC GTGGAAGCGG ATCTTCACCG CACCAAGATC 
CAGAGCATGC GGGACCAGGC AGACTGGCTG CTGAGGAACA TCATCCCCTA CCACGTGGCT 
GAGCAGCTGA AGGTGTCCCA GACCTACTCC AAGAACCATG ACAGCGGAGG GGTGATCTTC 
GCCAGCATCG TCAACTTCAG CGAGTTCTAC GAGGAGAACT ACGAGGGCGG CAAGGAGTGC 
TACCGGGTCC TCAACGAGCT CATCGGGGAC TTTGACGAGC TCCTAAGCAA GCCGGACTAC 
AGCAGCATCG AGAAGATCAA GACCATCGGA GCCACGTACA TGGCGGCGTC AGGGCTGAAC 
ACCGCGCAGG CCCAGGACGG CAGCCACCCG CAGGAGCACC TGCAGATCCT GTTCGAGTTC 
GCCAAGGAGA TGATGCGCGT GGTGGACGAC TTCAACAACA ACATGCTGTG GTTCAACTTC 
AAGCTCCGCG TCGGCTTCAA CCATGGGCCC CTCACGGCCG GGGTCATCGG CACCACCAAG 
CTGCTGTACG ACATCTGGGG AGACACCGTC AACATCGCCA GCAGGATGGA CACCACCGGC 
GTGGAGTGCC GCATCCAGGT GAGCGAAGAG AGCTACCGCG TCTTGAGCAA GATGGGCTAT 
GACTTCGACT ACAGAGGGAC CGTGAATGTC AAGGGGAAAG GCCAGATGAA GACCTACCTG 
TACCCAAAGT GCACGGATCA CAGGGTCATC CCACAGCACC AGCTGTCCAT CTCCCCAGAC 
ATCCGCGTCC AGGTGGATGG CAGCATCGGA CGGTCTCCCA CAGACGAGAT TGCCAACCTG 
GTGCCTTCTG TCCAGTATGT GGACAAGACA TCTCTGGGTT CTGACAGCAG CACGCAGGCC 
AAGGATGCCC ACCTGTCCCC CAAGAGACCG TGGAAGGAGC CCGTCAAAGC CGAAGAAAGG 
GGTCGATTTG GCAAAGCCAT AGAGAAAGAC GACTGTGACG AAACAGGAAT AGAAGAAGCC 
AACGAACTCA CCAAGCTCAA CGTTTCAAAG AGTGTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_005255136.1
CDS	365..4483
Translation	MASPPHQQLLHHHSTEVSCDSSGDSNSVRVKINPKQLSSNSHPKHCKYSISSSCSSSGDSGGVPRRVGGGGRLRRQKKLPQLFERASSRWWDPKFDSVNLEEACLERCFPQTQRRFRYALFYIGFACLLWSIYFAVHMRSRLIVMVAPALCFLLVCVGFFLFTFTKLYARHYAWTSLALTLLVFALTLAAQFQVLTPVSGRGDSSNLTATARPTDTCLSQVGSFSMCIEVLFLLYTVMHLPLYLSLCLGVAYSVLFETFGYHFRDEACFPSPGAGALHWELLSRGLLHGCIHAIGVHLFVMSQVRSRSTFLKVGQSIMHGKDLEVEKALKERMIHSVMPRIIADDLMKQGDEESENSVKRHATSSPKNRKKKSSIQKAPIAFRPFKMQQIEEVSILFADIVGFTKMSANKSAHALVGLLNDLFGRFDRLCEETKCEKISTLGDCYYCVAGCPEPRADHAYCCIEMGLGMIKAIEQFCQEKKEMVNMRVGVHTGTVLCGILGMRRFKFDVWSNDVNLANLMEQLGVAGKVHISEATAKYLDDRYEMEDGKVIERLGQSVVADQLKGLKTYLISGQRAKESRCSCAEALLSGFEVIDGSQVSSGPRGQGTASSGNVSDLAQTVKTFDNLKTCPSCGITFAPKSEAGAEGGAPQNGCQDEHKNSTKVTSSWLLFLSVPLLAHPPKASGGPNPKTQNGLLSPPQEEKLTNSQTSLCEILQEKGRWAGVSLDQSALLPLRFKNIREKTDAHFVDVIKEDSLMKDYFFKPPINQFSLNFLDQELERSYRTSYQEEVIKNSPVKTFASPTFSSLLDVFLSTTVFLTLSTTCFLKYEAATVPPPPAALAVFSAALLLEVLSLAVSIRMVFFLEDVMACTKRLLEWIAGWLPRHCIGAILVSLPALAVYSHVTSEYETNIHFPVFTGSAALIAVVHYCNFCQLSSWMRSSLATVVGAGPLLLLYVSLCPDSSVLTSPLDAVQNFSSERNPCNSSVPRDLRRPASLIGQEVVLVFFLLLLLVWFLNREFEVSYRLHYHGDVEADLHRTKIQSMRDQADWLLRNIIPYHVAEQLKVSQTYSKNHDSGGVIFASIVNFSEFYEENYEGGKECYRVLNELIGDFDELLSKPDYSSIEKIKTIGATYMAASGLNTAQAQDGSHPQEHLQILFEFAKEMMRVVDDFNNNMLWFNFKLRVGFNHGPLTAGVIGTTKLLYDIWGDTVNIASRMDTTGVECRIQVSEESYRVLSKMGYDFDYRGTVNVKGKGQMKTYLYPKCTDHRVIPQHQLSISPDIRVQVDGSIGRSPTDEIANLVPSVQYVDKTSLGSDSSTQAKDAHLSPKRPWKEPVKAEERGRFGKAIEKDDCDETGIEEANELTKLNVSKSV

Target ORF information:

RefSeq Version	XM_005255079.3
Organism	Homo sapiens(human)
Definition	Homo sapiens adenylate cyclase 9 (ADCY9), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_005255079.3

ORF Insert Sequence:

ATGGCTTCCC CACCCCACCA GCAGCTGCTG CATCACCACA GCACCGAGGT GAGCTGCGAC 
TCCAGCGGGG ACAGCAACAG CGTGCGCGTC AAGATCAACC CCAAGCAGCT GTCCTCCAAC 
AGCCACCCCA AGCACTGCAA ATACAGCATC TCCTCTAGCT GCAGCAGCTC TGGGGACTCC 
GGGGGCGTCC CCCGGCGAGT GGGCGGCGGA GGCCGGCTGC GCAGGCAGAA GAAGCTGCCC 
CAGCTGTTCG AGAGGGCCTC CAGCCGCTGG TGGGACCCCA AGTTCGACTC GGTGAACCTG 
GAGGAGGCCT GCCTGGAGCG CTGCTTCCCG CAGACCCAGC GCCGGTTCCG GTATGCGCTC 
TTCTACATCG GCTTCGCCTG CCTTCTGTGG AGCATCTATT TTGCGGTCCA CATGAGATCC 
AGACTGATCG TCATGGTCGC CCCCGCGCTG TGCTTCCTCC TGGTGTGTGT GGGCTTCTTT 
CTGTTTACCT TCACCAAGCT GTACGCCCGG CATTACGCGT GGACCTCGCT GGCTCTCACC 
CTGCTGGTGT TCGCCCTGAC CCTGGCTGCG CAGTTCCAGG TCTTGACGCC TGTCTCAGGA 
CGCGGCGACA GCTCCAACCT TACGGCCACA GCCCGGCCCA CAGATACTTG CTTATCTCAA 
GTGGGGAGCT TCTCCATGTG CATCGAAGTG CTCTTTTTGC TCTATACCGT CATGCACTTA 
CCTTTGTACC TGAGTTTGTG TCTGGGGGTG GCCTACTCTG TCCTTTTCGA GACCTTTGGC 
TACCATTTCC GGGATGAAGC CTGCTTCCCC TCGCCCGGAG CCGGGGCCCT GCACTGGGAG 
CTGCTGAGCA GGGGGCTGCT CCACGGCTGC ATCCACGCCA TCGGGGTCCA CCTGTTCGTC 
ATGTCCCAGG TGAGGTCCAG GAGCACCTTC CTCAAGGTGG GGCAATCCAT TATGCACGGG 
AAGGACCTGG AAGTGGAAAA AGCCCTCAAA GAGAGGATGA TTCATTCCGT GATGCCAAGA 
ATCATAGCCG ATGACTTAAT GAAGCAGGGA GATGAGGAGA GTGAGAATTC TGTCAAGAGG 
CATGCCACCT CGAGCCCCAA GAACAGGAAG AAAAAGTCTT CCATCCAAAA AGCTCCTATA 
GCCTTCCGCC CTTTTAAGAT GCAGCAGATC GAAGAAGTCA GTATTTTATT TGCAGATATC 
GTGGGCTTCA CCAAGATGAG TGCCAACAAG TCTGCCCACG CCCTGGTGGG TCTCCTGAAC 
GATCTGTTCG GTCGCTTCGA CCGCCTGTGT GAGGAGACCA AGTGTGAGAA AATCAGCACC 
CTGGGAGACT GTTACTACTG CGTGGCGGGC TGTCCCGAGC CCCGGGCCGA CCATGCCTAC 
TGCTGCATCG AGATGGGCCT GGGCATGATC AAGGCCATCG AGCAGTTCTG CCAGGAGAAG 
AAGGAGATGG TGAACATGAG AGTCGGGGTG CACACGGGCA CCGTCCTTTG CGGCATCCTG 
GGCATGAGGA GGTTTAAATT TGACGTGTGG TCCAACGATG TGAACCTGGC CAATCTCATG 
GAGCAGCTGG GAGTGGCCGG CAAAGTTCAC ATTTCTGAGG CCACCGCAAA ATACTTAGAT 
GACCGGTACG AAATGGAAGA TGGGAAAGTT ATTGAACGGC TGGGCCAGAG CGTGGTTGCT 
GACCAGTTGA AAGGTTTGAA GACATACCTG ATATCGGGTC AGAGAGCCAA GGAGTCTCGC 
TGCAGCTGTG CAGAGGCCTT GCTTTCTGGC TTTGAGGTCA TTGACGGCTC ACAGGTGTCC 
TCAGGCCCTA GGGGACAGGG GACAGCGTCA TCAGGGAATG TCAGTGACTT GGCGCAGACT 
GTCAAAACCT TTGATAACCT TAAGACCTGC CCTTCGTGCG GAATCACATT TGCTCCCAAA 
TCTGAAGCCG GCGCCGAGGG AGGAGCACCT CAAAACGGCT GCCAAGACGA GCATAAAAAC 
AGCACCAAGG TAACAAGCTC ATGGCTGTTG TTCCTGTCAG TTCCTCTCCT GGCGCATCCA 
CCCAAGGCTT CTGGAGGACC TAATCCCAAA ACTCAGAACG GGCTCCTCAG CCCTCCCCAA 
GAGGAGAAGC TCACCAACAG TCAGACTTCT CTGTGTGAGA TCTTGCAGGA GAAGGGAAGG 
TGGGCAGGGG TGAGCCTGGA CCAGTCGGCT CTCCTTCCGC TGAGGTTCAA GAACATCCGG 
GAGAAAACGG ACGCCCACTT TGTGGACGTT ATCAAAGAAG ACAGCCTGAT GAAAGATTAC 
TTTTTTAAGC CGCCCATTAA TCAGTTCAGC CTGAACTTCC TGGATCAGGA GCTGGAGCGA 
TCCTACAGGA CCAGCTATCA GGAAGAGGTC ATAAAGAACT CCCCCGTGAA GACGTTTGCT 
AGTCCCACCT TCAGCTCCCT CCTGGATGTG TTTCTGTCGA CCACAGTGTT TCTGACGCTG 
TCCACCACCT GCTTCCTGAA GTACGAGGCG GCCACCGTGC CTCCCCCGCC CGCCGCCCTG 
GCGGTCTTCA GTGCAGCCCT GCTGCTGGAG GTGCTGTCCC TCGCGGTGTC CATCAGGATG 
GTGTTCTTCC TGGAGGACGT CATGGCCTGC ACCAAGCGCC TGCTGGAGTG GATCGCCGGC 
TGGCTACCAC GTCACTGCAT CGGGGCCATC CTGGTGTCGC TTCCCGCACT GGCCGTCTAC 
TCCCATGTCA CCTCCGAATA TGAGACCAAC ATACACTTCC CAGTGTTCAC AGGCTCGGCC 
GCGCTGATTG CCGTCGTGCA CTACTGTAAC TTCTGCCAGC TCAGCTCCTG GATGAGGTCC 
TCCCTCGCCA CCGTCGTGGG GGCCGGGCCG CTGCTCCTGC TCTACGTCTC CCTGTGCCCA 
GACAGTTCTG TATTAACTTC GCCCCTTGAC GCAGTACAGA ATTTCAGTTC CGAGAGGAAC 
CCGTGCAATA GTTCGGTGCC GCGTGACCTC CGGCGGCCCG CCAGCCTCAT CGGCCAGGAG 
GTGGTTCTCG TCTTCTTTCT CCTGCTCTTG TTGGTCTGGT TCCTGAATCG CGAATTTGAA 
GTCAGCTACC GCCTCCACTA CCACGGAGAC GTGGAAGCGG ATCTTCACCG CACCAAGATC 
CAGAGCATGC GGGACCAGGC AGACTGGCTG CTGAGGAACA TCATCCCCTA CCACGTGGCT 
GAGCAGCTGA AGGTGTCCCA GACCTACTCC AAGAACCATG ACAGCGGAGG GGTGATCTTC 
GCCAGCATCG TCAACTTCAG CGAGTTCTAC GAGGAGAACT ACGAGGGCGG CAAGGAGTGC 
TACCGGGTCC TCAACGAGCT CATCGGGGAC TTTGACGAGC TCCTAAGCAA GCCGGACTAC 
AGCAGCATCG AGAAGATCAA GACCATCGGA GCCACGTACA TGGCGGCGTC AGGGCTGAAC 
ACCGCGCAGG CCCAGGACGG CAGCCACCCG CAGGAGCACC TGCAGATCCT GTTCGAGTTC 
GCCAAGGAGA TGATGCGCGT GGTGGACGAC TTCAACAACA ACATGCTGTG GTTCAACTTC 
AAGCTCCGCG TCGGCTTCAA CCATGGGCCC CTCACGGCCG GGGTCATCGG CACCACCAAG 
CTGCTGTACG ACATCTGGGG AGACACCGTC AACATCGCCA GCAGGATGGA CACCACCGGC 
GTGGAGTGCC GCATCCAGGT GAGCGAAGAG AGCTACCGCG TCTTGAGCAA GATGGGCTAT 
GACTTCGACT ACAGAGGGAC CGTGAATGTC AAGGGGAAAG GCCAGATGAA GACCTACCTG 
TACCCAAAGT GCACGGATCA CAGGGTCATC CCACAGCACC AGCTGTCCAT CTCCCCAGAC 
ATCCGCGTCC AGGTGGATGG CAGCATCGGA CGGTCTCCCA CAGACGAGAT TGCCAACCTG 
GTGCCTTCTG TCCAGTATGT GGACAAGACA TCTCTGGGTT CTGACAGCAG CACGCAGGCC 
AAGGATGCCC ACCTGTCCCC CAAGAGACCG TGGAAGGAGC CCGTCAAAGC CGAAGAAAGG 
GGTCGATTTG GCAAAGCCAT AGAGAAAGAC GACTGTGACG AAACAGGAAT AGAAGAAGCC 
AACGAACTCA CCAAGCTCAA CGTTTCAAAG AGTGTGTGA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

PubMed

Elevated Adenylyl Cyclase 9 Expression Is a Potential Prognostic Biomarker for Patients with Colon Cancer.
Medical science monitor : international medical journal of experimental and clinical research2419-25(2018 Jan)
Yi H,Wang K,Jin JF,Jin H,Yang L,Zou Y,Du B,Liu X

Adenylyl cyclase type 9 gene polymorphisms are associated with asthma and allergy in Brazilian children.
Molecular immunology82137-145(2017 Feb)
Teixeira HM,Alcantara-Neves NM,Barreto M,Figueiredo CA,Costa RS

Higher TNF? responses in young males compared to females are associated with attenuation of monocyte adenylyl cyclase expression.
Human immunology76(6)427-30(2015 Jun)
Ris?e PK,Rutkovskiy A,?gren J,Kolseth IB,Kjeldsen SF,Valen G,Vaage J,Dahle MK

Pharmacogenomic determinants of the cardiovascular effects of dalcetrapib.
Circulation. Cardiovascular genetics8(2)372-82(2015 Apr)
Tardif JC,Rh?aume E,Lemieux Perreault LP,Gr?goire JC,Feroz Zada Y,Asselin G,Provost S,Barhdadi A,Rhainds D,L'Allier PL,Ibrahim R,Upmanyu R,Niesor EJ,Benghozi R,Suchankova G,Laghrissi-Thode F,Guertin MC,Olsson AG,Mongrain I,Schwartz GG,Dub? MP

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ADCY9 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

見積依頼

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電話

FAX

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